flang/test/Semantics/modfile32.f90 - llvm-project - Git at Google

 ! RUN: %python %S/test_modfile.py %s %flang_fc1
 ! Resolution of generic names in expressions.
 ! Test by using generic function in a specification expression that needs
 ! to be written to a .mod file.

 ! Resolve based on number of arguments
 module m1
   interface f
     pure integer(8) function f1(x)
       real, intent(in) :: x
     end
     pure integer(8) function f2(x, y)
       real, intent(in) :: x, y
     end
     pure integer(8) function f3(x, y, z, w)
       real, intent(in) :: x, y, z, w
       optional :: w
     end
   end interface
 contains
   subroutine s1(x, z)
     real :: z(f(x))  ! resolves to f1
   end
   subroutine s2(x, y, z)
     real :: z(f(x, y))  ! resolves to f2
   end
   subroutine s3(x, y, z, w)
     real :: w(f(x, y, z))  ! resolves to f3
   end
   subroutine s4(x, y, z, w, u)
     real :: u(f(x, y, z, w))  ! resolves to f3
   end
 end
 !Expect: m1.mod
 !module m1
 ! interface f
 !  procedure :: f1
 !  procedure :: f2
 !  procedure :: f3
 ! end interface
 ! interface
 !  pure function f1(x)
 !   real(4), intent(in) :: x
 !   integer(8) :: f1
 !  end
 ! end interface
 ! interface
 !  pure function f2(x, y)
 !   real(4), intent(in) :: x
 !   real(4), intent(in) :: y
 !   integer(8) :: f2
 !  end
 ! end interface
 ! interface
 !  pure function f3(x, y, z, w)
 !   real(4), intent(in) :: x
 !   real(4), intent(in) :: y
 !   real(4), intent(in) :: z
 !   real(4), intent(in), optional :: w
 !   integer(8) :: f3
 !  end
 ! end interface
 !contains
 ! subroutine s1(x, z)
 !  real(4) :: x
 !  real(4) :: z(1_8:f1(x))
 ! end
 ! subroutine s2(x, y, z)
 !  real(4) :: x
 !  real(4) :: y
 !  real(4) :: z(1_8:f2(x, y))
 ! end
 ! subroutine s3(x, y, z, w)
 !  real(4) :: x
 !  real(4) :: y
 !  real(4) :: z
 !  real(4) :: w(1_8:f3(x, y, z))
 ! end
 ! subroutine s4(x, y, z, w, u)
 !  real(4) :: x
 !  real(4) :: y
 !  real(4) :: z
 !  real(4) :: w
 !  real(4) :: u(1_8:f3(x, y, z, w))
 ! end
 !end

 ! Resolve based on type or kind
 module m2
   interface f
     pure integer(8) function f_real4(x)
       real(4), intent(in) :: x
     end
     pure integer(8) function f_real8(x)
       real(8), intent(in) :: x
     end
     pure integer(8) function f_integer(x)
       integer, intent(in) :: x
     end
   end interface
 contains
   subroutine s1(x, y)
     real(4) :: x
     real :: y(f(x))  ! resolves to f_real4
   end
   subroutine s2(x, y)
     real(8) :: x
     real :: y(f(x))  ! resolves to f_real8
   end
   subroutine s3(x, y)
     integer :: x
     real :: y(f(x))  ! resolves to f_integer
   end
 end
 !Expect: m2.mod
 !module m2
 ! interface f
 !  procedure :: f_real4
 !  procedure :: f_real8
 !  procedure :: f_integer
 ! end interface
 ! interface
 !  pure function f_real4(x)
 !   real(4), intent(in) :: x
 !   integer(8) :: f_real4
 !  end
 ! end interface
 ! interface
 !  pure function f_real8(x)
 !   real(8), intent(in) :: x
 !   integer(8) :: f_real8
 !  end
 ! end interface
 ! interface
 !  pure function f_integer(x)
 !   integer(4), intent(in) :: x
 !   integer(8) :: f_integer
 !  end
 ! end interface
 !contains
 ! subroutine s1(x, y)
 !  real(4) :: x
 !  real(4) :: y(1_8:f_real4(x))
 ! end
 ! subroutine s2(x, y)
 !  real(8) :: x
 !  real(4) :: y(1_8:f_real8(x))
 ! end
 ! subroutine s3(x, y)
 !  integer(4) :: x
 !  real(4) :: y(1_8:f_integer(x))
 ! end
 !end

 ! Resolve based on rank
 module m3a
   interface f
     procedure :: f_elem
     procedure :: f_vector
   end interface
 contains
   pure integer(8) elemental function f_elem(x) result(result)
     real, intent(in) :: x
     result = 1_8
   end
   pure integer(8) function f_vector(x) result(result)
     real, intent(in) :: x(:)
     result = 2_8
   end
 end
 !Expect: m3a.mod
 !module m3a
 ! interface f
 !  procedure :: f_elem
 !  procedure :: f_vector
 ! end interface
 !contains
 ! elemental pure function f_elem(x) result(result)
 !  real(4), intent(in) :: x
 !  integer(8) :: result
 ! end
 ! pure function f_vector(x) result(result)
 !  real(4), intent(in) :: x(:)
 !  integer(8) :: result
 ! end
 !end

 module m3b
 use m3a
 contains
   subroutine s1(x, y)
     real :: x
     real :: y(f(x))  ! resolves to f_elem
   end
   subroutine s2(x, y)
     real :: x(10)
     real :: y(f(x))  ! resolves to f_vector (preferred over elemental one)
   end
   subroutine s3(x, y)
     real :: x(10, 10)
     real :: y(ubound(f(x), 1))  ! resolves to f_elem
   end
 end
 !Expect: m3b.mod
 !module m3b
 ! use m3a, only: f
 ! use m3a, only: f_elem
 ! use m3a, only: f_vector
 !contains
 ! subroutine s1(x, y)
 !  real(4) :: x
 !  real(4) :: y(1_8:f_elem(x))
 ! end
 ! subroutine s2(x, y)
 !  real(4) :: x(1_8:10_8)
 !  real(4) :: y(1_8:f_vector(x))
 ! end
 ! subroutine s3(x, y)
 !  real(4) :: x(1_8:10_8, 1_8:10_8)
 !  real(4) :: y(1_8:10_8)
 ! end
 !end

 ! Resolve defined unary operator based on type
 module m4
   interface operator(.foo.)
     pure integer(8) function f_real(x)
       real, intent(in) :: x
     end
     pure integer(8) function f_integer(x)
       integer, intent(in) :: x
     end
   end interface
 contains
   subroutine s1(x, y)
     real :: x
     real :: y(.foo. x)  ! resolves to f_real
   end
   subroutine s2(x, y)
     integer :: x
     real :: y(.foo. x)  ! resolves to f_integer
   end
 end
 !Expect: m4.mod
 !module m4
 ! interface operator(.foo.)
 !  procedure :: f_real
 !  procedure :: f_integer
 ! end interface
 ! interface
 !  pure function f_real(x)
 !   real(4), intent(in) :: x
 !   integer(8) :: f_real
 !  end
 ! end interface
 ! interface
 !  pure function f_integer(x)
 !   integer(4), intent(in) :: x
 !   integer(8) :: f_integer
 !  end
 ! end interface
 !contains
 ! subroutine s1(x, y)
 !  real(4) :: x
 !  real(4) :: y(1_8:f_real(x))
 ! end
 ! subroutine s2(x, y)
 !  integer(4) :: x
 !  real(4) :: y(1_8:f_integer(x))
 ! end
 !end

 ! Resolve defined binary operator based on type
 module m5
   interface operator(.foo.)
     pure integer(8) function f1(x, y)
       real, intent(in) :: x
       real, intent(in) :: y
     end
     pure integer(8) function f2(x, y)
       real, intent(in) :: x
       complex, intent(in) :: y
     end
   end interface
 contains
   subroutine s1(x, y)
     complex :: x
     real :: y(1.0 .foo. x)  ! resolves to f2
   end
   subroutine s2(x, y)
     real :: x
     real :: y(1.0 .foo. x)  ! resolves to f1
   end
 end
 !Expect: m5.mod
 !module m5
 ! interface operator(.foo.)
 !  procedure :: f1
 !  procedure :: f2
 ! end interface
 ! interface
 !  pure function f1(x, y)
 !   real(4), intent(in) :: x
 !   real(4), intent(in) :: y
 !   integer(8) :: f1
 !  end
 ! end interface
 ! interface
 !  pure function f2(x, y)
 !   real(4), intent(in) :: x
 !   complex(4), intent(in) :: y
 !   integer(8) :: f2
 !  end
 ! end interface
 !contains
 ! subroutine s1(x, y)
 !  complex(4) :: x
 !  real(4) :: y(1_8:f2(1._4, x))
 ! end
 ! subroutine s2(x, y)
 !  real(4) :: x
 !  real(4) :: y(1_8:f1(1._4, x))
 ! end
 !end
	! RUN: %python %S/test_modfile.py %s %flang_fc1
	! Resolution of generic names in expressions.
	! Test by using generic function in a specification expression that needs
	! to be written to a .mod file.

	! Resolve based on number of arguments
	module m1
	interface f
	pure integer(8) function f1(x)
	real, intent(in) :: x
	end
	pure integer(8) function f2(x, y)
	real, intent(in) :: x, y
	end
	pure integer(8) function f3(x, y, z, w)
	real, intent(in) :: x, y, z, w
	optional :: w
	end
	end interface
	contains
	subroutine s1(x, z)
	real :: z(f(x)) ! resolves to f1
	end
	subroutine s2(x, y, z)
	real :: z(f(x, y)) ! resolves to f2
	end
	subroutine s3(x, y, z, w)
	real :: w(f(x, y, z)) ! resolves to f3
	end
	subroutine s4(x, y, z, w, u)
	real :: u(f(x, y, z, w)) ! resolves to f3
	end
	end
	!Expect: m1.mod
	!module m1
	! interface f
	! procedure :: f1
	! procedure :: f2
	! procedure :: f3
	! end interface
	! interface
	! pure function f1(x)
	! real(4), intent(in) :: x
	! integer(8) :: f1
	! end
	! end interface
	! interface
	! pure function f2(x, y)
	! real(4), intent(in) :: x
	! real(4), intent(in) :: y
	! integer(8) :: f2
	! end
	! end interface
	! interface
	! pure function f3(x, y, z, w)
	! real(4), intent(in) :: x
	! real(4), intent(in) :: y
	! real(4), intent(in) :: z
	! real(4), intent(in), optional :: w
	! integer(8) :: f3
	! end
	! end interface
	!contains
	! subroutine s1(x, z)
	! real(4) :: x
	! real(4) :: z(1_8:f1(x))
	! end
	! subroutine s2(x, y, z)
	! real(4) :: x
	! real(4) :: y
	! real(4) :: z(1_8:f2(x, y))
	! end
	! subroutine s3(x, y, z, w)
	! real(4) :: x
	! real(4) :: y
	! real(4) :: z
	! real(4) :: w(1_8:f3(x, y, z))
	! end
	! subroutine s4(x, y, z, w, u)
	! real(4) :: x
	! real(4) :: y
	! real(4) :: z
	! real(4) :: w
	! real(4) :: u(1_8:f3(x, y, z, w))
	! end
	!end

	! Resolve based on type or kind
	module m2
	interface f
	pure integer(8) function f_real4(x)
	real(4), intent(in) :: x
	end
	pure integer(8) function f_real8(x)
	real(8), intent(in) :: x
	end
	pure integer(8) function f_integer(x)
	integer, intent(in) :: x
	end
	end interface
	contains
	subroutine s1(x, y)
	real(4) :: x
	real :: y(f(x)) ! resolves to f_real4
	end
	subroutine s2(x, y)
	real(8) :: x
	real :: y(f(x)) ! resolves to f_real8
	end
	subroutine s3(x, y)
	integer :: x
	real :: y(f(x)) ! resolves to f_integer
	end
	end
	!Expect: m2.mod
	!module m2
	! interface f
	! procedure :: f_real4
	! procedure :: f_real8
	! procedure :: f_integer
	! end interface
	! interface
	! pure function f_real4(x)
	! real(4), intent(in) :: x
	! integer(8) :: f_real4
	! end
	! end interface
	! interface
	! pure function f_real8(x)
	! real(8), intent(in) :: x
	! integer(8) :: f_real8
	! end
	! end interface
	! interface
	! pure function f_integer(x)
	! integer(4), intent(in) :: x
	! integer(8) :: f_integer
	! end
	! end interface
	!contains
	! subroutine s1(x, y)
	! real(4) :: x
	! real(4) :: y(1_8:f_real4(x))
	! end
	! subroutine s2(x, y)
	! real(8) :: x
	! real(4) :: y(1_8:f_real8(x))
	! end
	! subroutine s3(x, y)
	! integer(4) :: x
	! real(4) :: y(1_8:f_integer(x))
	! end
	!end

	! Resolve based on rank
	module m3a
	interface f
	procedure :: f_elem
	procedure :: f_vector
	end interface
	contains
	pure integer(8) elemental function f_elem(x) result(result)
	real, intent(in) :: x
	result = 1_8
	end
	pure integer(8) function f_vector(x) result(result)
	real, intent(in) :: x(:)
	result = 2_8
	end
	end
	!Expect: m3a.mod
	!module m3a
	! interface f
	! procedure :: f_elem
	! procedure :: f_vector
	! end interface
	!contains
	! elemental pure function f_elem(x) result(result)
	! real(4), intent(in) :: x
	! integer(8) :: result
	! end
	! pure function f_vector(x) result(result)
	! real(4), intent(in) :: x(:)
	! integer(8) :: result
	! end
	!end

	module m3b
	use m3a
	contains
	subroutine s1(x, y)
	real :: x
	real :: y(f(x)) ! resolves to f_elem
	end
	subroutine s2(x, y)
	real :: x(10)
	real :: y(f(x)) ! resolves to f_vector (preferred over elemental one)
	end
	subroutine s3(x, y)
	real :: x(10, 10)
	real :: y(ubound(f(x), 1)) ! resolves to f_elem
	end
	end
	!Expect: m3b.mod
	!module m3b
	! use m3a, only: f
	! use m3a, only: f_elem
	! use m3a, only: f_vector
	!contains
	! subroutine s1(x, y)
	! real(4) :: x
	! real(4) :: y(1_8:f_elem(x))
	! end
	! subroutine s2(x, y)
	! real(4) :: x(1_8:10_8)
	! real(4) :: y(1_8:f_vector(x))
	! end
	! subroutine s3(x, y)
	! real(4) :: x(1_8:10_8, 1_8:10_8)
	! real(4) :: y(1_8:10_8)
	! end
	!end

	! Resolve defined unary operator based on type
	module m4
	interface operator(.foo.)
	pure integer(8) function f_real(x)
	real, intent(in) :: x
	end
	pure integer(8) function f_integer(x)
	integer, intent(in) :: x
	end
	end interface
	contains
	subroutine s1(x, y)
	real :: x
	real :: y(.foo. x) ! resolves to f_real
	end
	subroutine s2(x, y)
	integer :: x
	real :: y(.foo. x) ! resolves to f_integer
	end
	end
	!Expect: m4.mod
	!module m4
	! interface operator(.foo.)
	! procedure :: f_real
	! procedure :: f_integer
	! end interface
	! interface
	! pure function f_real(x)
	! real(4), intent(in) :: x
	! integer(8) :: f_real
	! end
	! end interface
	! interface
	! pure function f_integer(x)
	! integer(4), intent(in) :: x
	! integer(8) :: f_integer
	! end
	! end interface
	!contains
	! subroutine s1(x, y)
	! real(4) :: x
	! real(4) :: y(1_8:f_real(x))
	! end
	! subroutine s2(x, y)
	! integer(4) :: x
	! real(4) :: y(1_8:f_integer(x))
	! end
	!end

	! Resolve defined binary operator based on type
	module m5
	interface operator(.foo.)
	pure integer(8) function f1(x, y)
	real, intent(in) :: x
	real, intent(in) :: y
	end
	pure integer(8) function f2(x, y)
	real, intent(in) :: x
	complex, intent(in) :: y
	end
	end interface
	contains
	subroutine s1(x, y)
	complex :: x
	real :: y(1.0 .foo. x) ! resolves to f2
	end
	subroutine s2(x, y)
	real :: x
	real :: y(1.0 .foo. x) ! resolves to f1
	end
	end
	!Expect: m5.mod
	!module m5
	! interface operator(.foo.)
	! procedure :: f1
	! procedure :: f2
	! end interface
	! interface
	! pure function f1(x, y)
	! real(4), intent(in) :: x
	! real(4), intent(in) :: y
	! integer(8) :: f1
	! end
	! end interface
	! interface
	! pure function f2(x, y)
	! real(4), intent(in) :: x
	! complex(4), intent(in) :: y
	! integer(8) :: f2
	! end
	! end interface
	!contains
	! subroutine s1(x, y)
	! complex(4) :: x
	! real(4) :: y(1_8:f2(1._4, x))
	! end
	! subroutine s2(x, y)
	! real(4) :: x
	! real(4) :: y(1_8:f1(1._4, x))
	! end
	!end